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Description
The contents report the results of experimental testing and finite-element analysis-based computation on the deflection of steerable tipped microcatheters and microguidewires suitable for neurointervention. Within are text files reporting the deflection curvatures of the catheter tip with the different designs as reported in the paper. Likewise, video and MATLAB-processed results from the video are provided on these same designs after their fabrication and assembly. American Heart Association, Predoctoral grant 16PRE31430005 - T. Gopesh; American Heart Association, Innovative Project Award (19IPLOI34760705) - J. Friend, A. Khalessi, and A. Norbash; State of California’s AB2664 Medical Entrepreneurship Education and Training Grant - J. Friend and A. Norbash; UCSD’s Galvanizing Engineering in Medicine program - J. Friend and A. Norbash; National Institutes of Health via the University of California Center for Accelerated Innovation (NIH/ NCATS UCSD CTRI 1UL1TR001442-01) - J Friend, A. Norbash, A. Khalessi Research Data Curation Program, UC San Diego, La Jolla, 92093-0175 (https://lib.ucsd.edu/rdcp) Gopesh, Tilvawala; Wen, Jessica H.; Santiago-Dieppa, David; Yan, Bernard; Pannell, J. Scott; Khalessi, Alexander; Norbash, Alexander; Friend, James (2021). Data from: Soft robotic steerable micro-catheter for the endovascular treatment of cerebral disorders. UC San Diego Library Digital Collections. https://doi.org/10.6075/J0R49QN8
Type
dataset
Identifier
ark:/20775/bb6322227r
Language
English
Subject
Finite element analysis Surgery Neurosurgery Robotics Design engineering Neurointervention Soft robotics Hyperelastic materials Microfabrication Endovascular intervention
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